Red blood cells made to deliver antibiotics to bacteria

‘Certainly promising’

David W. Deamer, PhD, research professor of biomolecular engineering at the University of California, Santa Cruz, said in a comment: “This is certainly promising. The erythro-PmBs have a greater loading capacity and longer circulation time than ordinary liposomes used for drug delivery. They can also be prepared with specific antibodies so that the antibiotic is delivered more directly when they bind to bacterial pathogens.”

The effect on bacterial growth, however, was tested in a model system, not in an actual infection, he said, adding that an important next step will be to perform animal testing. “One of the simplest tests is induced sepsis in mice, which mimics a burst appendix. If the erythro-PmBs can treat sepsis effectively, it will be an encouraging sign that they have potential therapeutic value. It will also be interesting to see whether the antigens responsible for ABO blood groups are retained on the surfaces of the erythro-PmBs. If they are, it might be necessary to match donor blood to that of the recipient.

“Getting a product ready for clinical use will require partnership with a major pharmaceutical firm, several years of animal testing, and then several more years carrying out phase 1, 2, and 3 clinical trials in human patients,” Dr. Deamer concluded. 

No commercial funding was disclosed. Ms. Krivić, Dr. Rheinstädter, and Dr. Deamer reported no conflicts of interest.

A version of this article first appeared on Medscape.com.